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CMBP-1��p��λ�x

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CMBP-1��p��λ�x

CMBP-1��p��λ�x��Ҫ�c��D(zhu��n)�h(hu��n)�P(p��n)늘O��о��߀ԭ��(y��ng)�ęC(j��)��̈́�(d��ng)��W(xu��)��κ��λ�x��(y��ng)��ͨ�ă�늘O��늘Oϵ�y(t��ng)��x��ƾ��ȸߡ��܏�(qi��ng)��(w��n)��Ժã��ǘO�V��g�о��x��

CMBP-1��p��λ�x

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�o��늉��±4V

�~��ݔ��늘O��-1A��+1A

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�ۡ��-25V��+25V

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��跶��-3V��+3V

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��γߴ磺500×170×470��mm��

�ء��9kg

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CMBP-1��p��λ�x

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ԓ��˾�a(ch��n)Ʒ��(l��i)�� ʯ�ͻ��a(ch��n)Ʒ��x�� (sh��)�(y��n)�x�� 880�͔�(sh��)��ʽBOD5�y(c��)��x 870��ֱ�xBOD5�y(c��)��x YHCA-200A��COD��ٜy(c��)��x YH��16��COD�� COD��b�� WMX-��-B��΢��b�� YH-2010��COD��ؼӟ�� HH-5�ͻ��W(xu��)��y(c��)��x ��(bi��o)��(zh��n)COD�� HH-6�ͻ��W(xu��)��y(c��)��x YHCA-100A��COD��ٜy(c��)��x YHCOD-100��COD�Ԅ�(d��ng)��x COD�y(c��)��x.COD��ٜy(c��)��x.COD�� ZYT-1��Ԅ�(d��ng)��ͣ�ζ��x

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CMBP-1��p��λ�x:

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�a(ch��n)Ʒ��B�� CMBP-1��p��λ�x��Ҫ�c��D(zhu��n)�h(hu��n)�P(p��n)늘O��о��߀ԭ��(y��ng)�ęC(j��)��̈́�(d��ng)��W(xu��)��κ��λ�x��(y��ng)��ͨ�ă�늘O��늘Oϵ�y(t��ng)��x��ƾ��ȸ��܏�(qi��ng)��(w��n)��Ժ��ǘO�V��g�о��x��(y��ng)��ڴ�(zhu��n)ԺУ��Ժ��Ľ̌W(xu��)�Ϳ��

�a(ch��n)Ʒ��c(di��n)�� 1��Ԏ��l(f��)��跶��2��늘O�_(k��i)·��·��Ԅ�(d��ng)��o(h��)��(b��o)��3��(n��i)�O(sh��)��ؓ(f��)�d��ڙz��4��ܜy(c��)�� 5��ݔ��늉�

��g(sh��)��(sh��)�� 1.��̖(h��o): CMBP-1 2.�o��늉�: ��4V 3.�~��ݔ��: 늘O��-1A��+1A��늘O��-0.8A��+0.8A 4.�� : -25V��+25V 5.�λ��ƾ��: ��1 mV 6.��ٶ�: 0.1��10000mV/s 7.��跶��: -3V��+3V 8.��`��: ��0.1% 9.��ݔ��迹: ��1��10 10�� 10.��γߴ磺 500��170��470mm 11.�� : 9 kg 12.�� : 50 W

��Q(ch��ng)	Ҏ(gu��)��	��ע	�N(xi��o)�ۃr(ji��)	�Ƿ�F(xi��n)؛
CMBP-1��p��λ�x	CMBP-1��p��λ�x��Ҫ�c��D(zhu��n)�h(hu��n)�P(p��n)늘O��о��߀ԭ��(y��ng)�ęC(j��)��̈́�(d��ng)��W(xu��)	��κ��λ�x��(y��ng)��ͨ�ă�늘O��늘Oϵ�y(t��ng)��x��ƾ��ȸ��܏�(qi��ng)��(w��n)��Ժ��ǘO�V��g�о��x��b��1	1��.00	�F(xi��n)؛

CMBP-1�� p��λ�x

CMBP-1��p��λ�x:

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�a(ch��n)Ʒ��B�� CMBP-1��p��λ�x��Ҫ�c��D(zhu��n)�h(hu��n)�P(p��n)늘O��о��߀ԭ��(y��ng)�ęC(j��)��̈́�(d��ng)��W(xu��)��κ��λ�x��(y��ng)��ͨ�ă�늘O��늘Oϵ�y(t��ng)��x��ƾ��ȸߡ��܏�(qi��ng)��(w��n)��Ժ��ǘO�V��g�о��x��(y��ng)��ڴ�(zhu��n)ԺУ��Ժ��Ľ̌W(xu��)�Ϳ��

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CMBP-1��p��λ�x	CMBP-1��p��λ�x��Ҫ�c��D(zhu��n)�h(hu��n)�P(p��n)늘O��о��߀ԭ��(y��ng)�ęC(j��)��̈́�(d��ng)��W(xu��)	��κ��λ�x��(y��ng)��ͨ�ă�늘O��늘Oϵ�y(t��ng)��x��ƾ��ȸ��܏�(qi��ng)��(w��n)��Ժ��ǘO�V��g�о��x��b��1	1��.00	�F(xi��n)؛

�p��λ�x ��̖(h��o)wi3902

�p��λ�x��Ҫ�c��D(zhu��n)�h(hu��n)�P(p��n)늘O��о��߀ԭ��(y��ng)�ęC(j��)��̈́�(d��ng)��W(xu��)��κ��λ�x��(y��ng)��ͨ�ă�늘O��늘Oϵ�y(t��ng)��x��ƾ��ȸ��܏�(qi��ng)��(w��n)��Ժã��ǘO�V��g�о��x��g(sh��)ָ��(bi��o)��* �o��늉��±4V* �~��ݔ��늘O��-1A��+1A��늘O��-0.8A��+0.8A* �ۡ��-25V��+25V* �λ��ƾ��ȣ��1 mV* ��ٶȣ�0.1��10000mV/s* ��跶��-3V��+3V* ��`���0.1%* ��ݔ��迹��1×1010 Ω* ��γߴ磺500×170×470��mm��* �ء��9 kg* ��ģ�50 W��c(di��n)��* �Ԏ��l(f��)��跶��* 늘O�_(k��i)·��·��Ԅ�(d��ng)��o(h��)��(b��o)��* ��(n��i)�O(sh��)��ؓ(f��)�d ��ڙz��* ��ܜy(c��)��* ��ݔ��늉��(y��ng)��ڴ�(zhu��n)ԺУ��Ժ��Ľ̌W(xu��)�Ϳ��

Wavedrive20�p��λ�x/�pͨ��늻��W(xu��)��վ/��λ�x��Wavedrive20��

�a(ch��n)Ʒ��B�a(ch��n)Ʒ��̖(h��o)��WaveDrive20 Ʒ �ƣ��(gu��)PINE �a(ch��n) �أ��(gu��)

PINE��˾�Ƴ��һ��WaveDriver20��λ/��ʹ�Æι��늘Oģʽ��Ҳ��ʹ��p��늘Oģʽ��͵đ�(y��ng)�ð��D(zhu��n)�A�P(p��n)�A�h(hu��n)늘O��RRDE��ȡ�

��Ҫ��c(di��n)USB�ӿ��?x��n)r(ji��)��늘Oϵ�y(t��ng)��܏�(qi��ng)��yʽ��`��ķ��

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PINE��˾�Ƴ��һ��WaveDriver USB��λ/��x��ȿ��ʹ�Æι��늘Oģʽ��Ҳ��ʹ��p��늘Oģʽ��͵đ�(y��ng)�ð��D(zhu��n)�A�P(p��n)�A�h(hu��n)늘O��RRDE��

�y(c��)ԇ��ѭ�h(hu��n)��CV��ѭ�h(hu��n)��}�_��Լ�늳س��늜y(c��)ԇ�ȡ��䑪(y��ng)�ú͜y(c��)��λ�_(d��)��±10 VDT��±1��ൽ�ׂ�(g��)Ƥ��֧��IR�a(b��)��

WaveDriver USB�p��λ�x��һ��(g��)��ͬ�r(sh��)��ƃɂ�(g��)��늘O��p��늘O�y(c��)ԇ��g(sh��)��D(zhu��n)�A�P(p��n)�A�h(hu��n)늘O��΢��w�a(ch��n)��/�ɼ��(sh��)�(y��n)��У�IDA��ȡ�

WaveDriver USB �p��λ�x��ͬ�r(sh��)��ÿ��(g��)��늘O�ṩ��(l��)��̖(h��o)��ͬ�r(sh��)�y(c��)��ÿ��(g��)늘O��λ��

WaveDriver USB�p��λ�xͨ�^(gu��)USB�ӿ��c��X�B��ʹ�õ�ܛ��AfterMathϵ�y(t��ng)��ʮ�֏�(qi��ng)��֧��ܛ��D(zhu��n)�A�P(p��n)늘O�b�õ��D(zhu��n)��C(j��)��ģ�M늉�ݔ��/ݔ��ӿں�ͬ��̖(h��o)�ӿ��c��x��(li��n)�á�

��(bi��o)��(zh��n)늻��W(xu��)��

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Open Circuit Potential ��OCP�� _(k��i)·�λ

Constant Potential electrolysis ��BE�� λ늽ⷨ��BE��

Constant Current electrolysis ��BE�� 늽ⷨ��BE��

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Cycic Voltammetry ��CV�� ѭ�h(hu��n)��CV��

Linear Sweep Voltammetry ��LSV�� Ԓ��LSV��

Starcase Voltammetry ��SCV�� A�S��SCV��

Chronoamperometry ��CA�� Ӌ(j��)�r(sh��)��CA��

Double Potential Step Chronoamperometry ��DPSCA�� p�λ�A�SӋ(j��)�r(sh��)��DPSCA��

Cyclic Step Chronoamperometry ��CSCA�� ѭ�h(hu��n)�A�SӋ(j��)�r(sh��)��CSCA��

Differential pulse Voltammetry ��DPV�� }�_��DPV��

Square-Wave Votammetry ��SWV�� ѭ�h(hu��n)�� SWV��

Normal Pulse Voltammetry ��NPV�� Ҏ(gu��)�}�_��NPV��

Electrode Control Modes & Connections Control Modes 늘O��ģʽ��B�ӿ��Ʒ�ʽ

Potentiostat ��POT��

Galvanostat ��GAL��

Open circuit potential ��OCP��

Zero resistance ammeter ��ZRA��

IR Compensation: yes IR�a(b��)��:��

Cell Port combination coaxial DSUB connector 늽��B�ӿ�: ͬ�S��DSUB�M��

Reference Electrode: sense line with driven shield ��늘O��ξ��B��

Counter Electrode: drive line ��(du��)늘O��ؓ(f��)�d�B��c(di��n)

First Working Electrode: separate sense ��nd drive lines, each with driven shield

��һ��늘O��z�y(c��)��(q��)��(d��ng)��̖(h��o)��ÿ��(g��)��Ъ�(d��)�Ե��(q��)��(d��ng)�� Second Working Electrode*: separate sense ��nd drive lines, each with driven shield

�ڶ��늘O*��z�y(c��)��(q��)��(d��ng)��̖(h��o)��ÿ��(g��)��Ъ�(d��)�Ե��(q��)��(d��ng)��

Accessories ��

Dummy Cell: extrnal dummy cell ��included�� ⲿ̓�M늽�أ��

Cell Cable: various designs available separately 늽��B�Ӿ��?ji��n)Ϊ?d��)�ṩ

Power Amplifier ��counter electrode amplifier�� ʷŴ��

Compliance Voltage: >± 16.5V �ۉ��>±16.5V

Output Current: ±1.0 A ��maximum�� ݔ��±1.0 A��

Speed: 9 available speed settings ��ٶȣ�9��(g��)�ٶ��O(sh��)��

Bandwidth: > 200 kHz ��on fastest speed setting�� ٶ�> 200 kHz

Rise Time: 10V/μsec ��on fastest speed setting�� r(sh��)�g��ٶ�10V/μsec

Applied Current ��galvanostat mode�� ģʽ�� Ranges: ±1 A��±100mA ±I0mA��±1 mA��±100μA��±10μA��± l μA��±100nA ��̣�±1 A��±100mA ±I0mA��±1 mA��±100μA��±10μA��± l μA��±100nA

Resolution ��at each range��: 31.3 μA, 3.13 μA��313 nA��31.3 nA��3.13 nA, 313 pA.31.3pA.3.13pA

�ֱ��ʣ�ÿ�n��31.3 μA, 3.13 μA��313 nA��31.3 nA��3.13 nA, 313 pA.31.3pA.3.13pA Accuracy: ± 0.2% setting; ±0.05% of range �y(c��)��ȣ��O(sh��)�õ�±0.2��̷��±0.05% DAC Output: 16 bits DACݔ��16λ

Electrometer ��reference electrode amplifier�� 늘O�Ŵ��

Input Impedance: > 1013 Ω in parallel with < 10 pF ݔ��迹��> 1013Ω; ��(li��n)��<10 pF

Input Current: < 10 pA leakage/bias current at 25�� ݔ��©/ƫ��25�棩<10 pA

CMRR: >84dB at 0 to 1kHz;>74 dB at 10kHz

��ģ��Ʊȣ�CMRR��> 84dB ��0- 1kHz�� > 74 dB ��10 kHz��

Bandwidth: >11 MHz ��3 dB�� > 11 MHz��3dB��

Dual Electrode Methods �p늘O�Ĝy(c��)��

Dual electrode electrolysis ��DEBE�� p늘O늽ⷨ��DEBE��

Dual electrode Voltammetry ��DECV�� p늘O��DECV��

Galvanostatic Methods ��y(c��)��

Chronopotentiometry ��CP�� Ӌ(j��)�r(sh��)�λ��CP��

Current Ramp Chronopotentiometry ��CRP�� λ��CRP��

Cycic Chronopotentiometry ��CCP�� ѭ�h(hu��n)Ӌ(j��)�r(sh��)�λ��CCP��

Cycic Step Chronopotentiometry ��CSCP�� ѭ�h(hu��n)�A�SӋ(j��)�r(sh��)�λ��CSCP��

Stripping Voltammetry �ܳ��

Anodic & Cathodic Stripping Voltammetry ��ASV�� (y��ng)�O��ꎘO�ܳ��ASV��

Differential Pulse Stripping Voltammetry ��DPSV�� ΢��}�_�ܳ��DPSV��

Square-Wave Stripping Voltammetry ��SWSV�� ܳ��SWSV��

Measured Current ��y(c��)��

Ranges��±1 A, ±100mA ±l0mA,±l mA, ±100pA ±10pA,±l pA,±100nA

��̣�±1 A, ±100mA ±l0mA, ±l mA, ±100pA ±10pA, ±l pA,±100nA

Resolution ��at each range�� 31.3 pA, 3.13 pA, 313nA, 313 nA. 3.13 nA, 313 pA. 313 pA. 3.13 pA

�ֱ��ʣ�ÿ�n��: 31.3 pA, 3.13 pA, 313nA, 313 nA. 3.13 nA, 313 pA. 313 pA. 3.13 pA

Autoranging��yes �Ԅ�(d��ng)��: ��

Practical Range��100 pA to 1.0 A ��(sh��)��̣� 100 pA to 1.0 A

Accuracy: ± 0.2% setting; ±0.05% of range �y(c��)��ȣ��O(sh��)�õ�±0.2��̷��±0.05%

Leakage Current: 10 pA at 25°C ©�� 10 pA at 25°C

ADC Input: 16 bits ADCݔ�룺16λ

Fliters: 10 Hz. 30 Hz. 100 H z. 1 kHz, 10 kHz ��2-pole, low-pass Bessel filters��

�V��10 Hz, 30 Hz, 100 Hz, 1 kHz��10 kHz��2�O��ͨؐ��V��

Grounding �ӵ�

Signal Ground: isolated from USB port, floats with respect to instrument chassis

��̖(h��o)�ӵأ��USB�˿ں̓x��C(j��)��x

Instrument chassis banana binding post connection �x��C(j��)�䣺�㽶�^�Ӿ��

Applied Potential ��potentiostat mode�� λ��㉺ģʽ��

Ranges: ±10.0 V. ±2.5 V ��̣�±10.0 V. ±2.5 V

Resolution ��at each range��: 313 pV, 78 pV �ֱ��ʣ�ÿ�n��:313 pV, 78 pV

Accuracy: +0.2% of setting, ±1.0 mV �y(c��)��ȣ��O(sh��)�õ�±0.2��±1.0 mV

DAC Output: 16 bits DACݔ��16λ

CV Scan Rate��min��: 10μV/sec

CV��ٶȣ��: 10μV/sec

CV Scan Rate ��max��: 125V/sec

CV��ٶȣ��󣩣�125V/sec

Measured Potential늉��y(c��)��

Ranges: ±10.0 V, ±2.5 V ��̣�±10.0 V. ±2.5 V

Resolution ��at each range��: 313 pV. 78 pV �ֱ��ʣ�ÿ�n��:313 pV, 78 pV

Accuracy: ± 0.2% setting; ±0.05% of range �y(c��)��ȣ��O(sh��)�õ�±0.2��̷��±0.05%

ADC Input: 16 bits DACݔ��16λ

Filters: 10Hz. 30Hz. 100 Hz. 1 kHz. 10kHz ��2-pole, low-pass Bessel ftters��

�V��10 Hz, 30 Hz, 100 Hz, 1 kHz��10 kHz��2�O��ͨؐ��V��

Data Acquisition ��(sh��)��(j��)�ɼ�

Clock Resolution: �r(sh��)犷ֱ��ʣ�10 nsec

Point Interval*: 80 μsec ��minimum�� c(di��n)�g�ࣺ��С80 μsec

Synchronization: simultaneous samping of all analog input signals

��̖(h��o)ͬ��е�ģ�Mݔ��̖(h��o)ͬ�r(sh��)�ɘ�

Raw Point Total�� <10 million per experiment

��(sh��)��(j��)�c(di��n)��ÿ��(g��)�y(c��)��<10 million

Rotating Disk Methods��D(zhu��n)�A�P(p��n)��

Rotating Disk electrode ��RDE�� D(zhu��n)�A�P(p��n)늘O��RDE��

Koutecky-Levich Series ��KL-RDE�� Koutecky-Levich��D(zhu��n)�A�P(p��n)ϵ�з�

Rotating Disk electrolysis ��BE-RDE�� D(zhu��n)�A�P(p��n)늽ⷨ��BE-RDE��

Rotating Disk Chronopotentiometry��CP-RDE�� D(zhu��n)�A�P(p��n)Ӌ(j��)�r(sh��)�λ��CP-RDE�� Rotating Disk Cyclic Chronopotentiometry ��CCP-RDE�� D(zhu��n)�A�P(p��n)ѭ�h(hu��n)Ӌ(j��)�r(sh��)�λ��CCP-RDE��

Rotating Ring-Disk Methods:��D(zhu��n)�h(hu��n)�P(p��n)늘O

Rotating Ring-Disk Voltammetry��RRDE�� D(zhu��n)�h(hu��n)�P(p��n)��RRDE��

Rotating Ring-Disk Koutecky-Levich ��KL-RRDE�� Koutecky-Levich��D(zhu��n)�h(hu��n)�P(p��n)ϵ�з�

Rotating Ring Disk Electrlysis/ ��BE-RRDE�� D(zhu��n)�h(hu��n)�P(p��n)늽ⷨ��BE-RRDE��

Rotator Control Connections ��back panel�� D(zhu��n)��B�ӣ��壩

General Specifications�a(ch��n)ƷҎ(gu��)��

Power Required: 24.0 VDC ��±5%��, 4 A ��low voltage DC device��

�Դ��24.0 VDC��±5��4A��늉�ֱ��O(sh��)�䣩

Power Adapter:100 to 240VAC 2.3A,50 to 60Hz �Դ�m��:100 to 240VAC 2.3A,50 to 60Hz

Power Cable: various international cables available separately��C13 type�� Դ��(gu��)�Hͨ��|��C13�ͣ�

LED Indicators: power, USB, ��nd status LEDָʾ��Դ��USB�͠�B(t��i)

Instrument Dimensions: 140x305x248mm��5.5x12.0x9.75in�� γߴ磺140x305x248mm��5.5x12.0x9.75in��

Instrument Weight: 3.6 kg ��8 bs�� x��3.6��8��

Shipping Dimensions:254 x 356x 457mm��10x14x18in�� b�ߴ磺254×356x457��ף�10x14x18in��

Shipping Weight: 6.4 kg ��14 b�� 6.4��14��

Temperature Range: 10’C to 40’C �ضȷ��10��40��

Humidity Range: 80%RH maximum, non-condensing ��ȷ��80��RH

DATA ORGANIZER ��(sh��)��(j��)̎��

Software & Interface Cable ��included�� ܛ��ͽӿ��|��

Software: Pine AfterMath™ Data Organizer ܛ��PINE AfterMath™

interface Type: USB 2.0 �ӿ��(l��i)�ͣ�USB 2.0

Cable: USB A / B cable ��914 mm L�� |��USB A / B��914��L(zh��ng)��

Ӌ(j��)��C(j��)��Ҫ�󣨲��PC��

Operating System: Windows 7, XP ��32 bit�� nd Vista ��ϵ�y(t��ng)�� Windows 7��XP��32λ��Vista

Processor Class: Pentium IV or equivalent ̎�� Pentium IV ��ͬ��ܵ�

Processor Speed: 1 GHz or faster ̎��ٶȣ�1 GHz��

Physical Memory: 512 MB or higher ��(n��i)�棺512 MB��

GUI Platform: Microsoft .NET 20 GUIƽ�_(t��i)��Microsoft.NET20

Screen Resolution:1280x 1024 pixels recommended ��Ļ�ֱ��ʣ�1280x 1024��

WaveDriver200PINE�p��λ�x/PINE늻��W(xu��)��վ

WaveDriver200�p��λ�x/늻��W(xu��)��վ

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Ԕ��(x��)��B��

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��С늉��ֱ��ʣ�78 μV

��С��ֱ��ʣ�3.13 pA

�D(zhu��n)�Q��ʣ�� 10 V/μs

�y��10 mV_RMS

ģ�M��(sh��)��D(zhu��n)�Q��16 bit

혏�늉��±17V

й©��10 pA

��3 dB��15 MHz

��ɘ��c(di��n)��1000�f(w��n)��(g��)/ÿ�Ό�(sh��)�(y��n)

�x��ߴ磺160��*255��ߣ�*324��L(zh��ng)��mm

�x��4.6 kg

IR�a(b��)��迹��EIS��Д෨��CI��PF��

EIS��迹��(sh��)

��迹�l�ʷ��10 μHz-1 MHz

�l�ʾ��ȣ�±10 ppm

��(sh��)��(j��)��Lissajous��Bode��Nyqusit�� Mott-Schottky

��(sh��)��(j��)ģ�ͣ�Circuit fit��Transmission line��Kramers-Kronig

Circuit fitting��Levenberg-Marquardt��Simplex��Powell��

Circuit fitting�x�(xi��ng)��(d��ng)�B(t��i)�x��c(di��n)��λ�ͅ��(sh��)

��跽ʽ��(du��)��(sh��)��Զ��x

RRDE�y(c��)ԇ��

Rotating Ring-Disk Voltammetry ��D(zhu��n)�A�P(p��n)�A�h(hu��n)늘O�y(c��)ԇ��RRDE�� RRDE��6�N�y(c��)ԇģʽ��܏�(qi��ng)��

Collection Mode��P(p��n)늘O�O(sh��)��CV��LSV��h(hu��n)늘O�O(sh��)�ú�늉�CA��

Shielding Mode��P(p��n)늘O�O(sh��)�ú�늉�CA��h(hu��n)늘O�O(sh��)��CV��LSV��

Window Mode��P(p��n)�ͭh(hu��n)늘Oͬ�r(sh��)�O(sh��)��CV��LSV��

Diametric Mode��P(p��n)늘O�ͭh(hu��n)늘Oͬ�r(sh��)�O(sh��)��CV��LSV��ǳ��R��y(c��)ԇ��

Galvanostatic Mode��P(p��n)늘O�O(sh��)��CV��h(hu��n)늘O�O(sh��)�ú��CP��

Galvanostatic Shielding Mode�P(p��n)늘O�O(sh��)�ú��CP��h(hu��n)늘O�O(sh��)��CV��

늉��(sh��)

��ʩ��늉��±15 V

��(zh��n)�_�ԣ�±0.2%��O(sh��)��늉��±0.05%��y(c��)��늉��

늉��̣�3�n��±2.5 V, ±10 V, ±15 V��

늉��ֱ��ʣ��(du��)��(y��ng)��3�n��̷քe��78 μV/bit��313 μV/bit��469 μV/bit

��(sh��)

��ʩ��±1 A

�m��±20 pA��±1 A

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��̣�8�n��±100 nA��±1 A��

��ֱ��ʣ�0.0031%

늻��W(xu��)��

Open Circuit Potential �_(k��i)·�λ��OCP��

Bulk electrolysis 늽ⷨ��BE��

Cyclic Voltammetry ѭ�h(hu��n)��CV��

Linear Sweep Voltammetry ��Ԓ��LSV)

Spectroelectrochemistry ��V늻��W(xu��)�y(c��)ԇ��SPECE��

Staircase Voltammetry �A�S��SCV��

Chronoamperometry Ӌ(j��)�r(sh��)��/��λ��CA)

Double Potential Step Chronoamperometry �p�λ�A�SӋ(j��)�r(sh��)��(DPSCA)

Cyclic Step Chronoamperometry ѭ�h(hu��n)�A�SӋ(j��)�r(sh��)��CSCA��

Chronopotentiometry Ӌ(j��)�r(sh��)�λ��CP��

Ramp Chronopotentiometry б��Ӌ(j��)�r(sh��)�λ��RCP��

Staircase Potentiometry �A�SӋ(j��)�r(sh��)�λ��SCP��

Cyclic Step Chronopotentiometry ѭ�h(hu��n)�A�SӋ(j��)�r(sh��)�λ��CSCP��

Differential pulse Voltammetry ��}�_��DPV��

Square-Wave Voltammetry ��ѭ�h(hu��n)�� SWV��

Normal Pulse Voltammetry ��Ҏ(gu��)�}�_��NPV��

Rotating Methods ��D(zhu��n)�A�P(p��n)�A�h(hu��n)늘O�y(c��)ԇ��

Rotating Disk Voltammetry (RDE)

Rotating Disk Koutecky-Levich (KL-RDE)

Rotating Disk Electrolysis (BE-RDE)

Rotating Disk Chronopotentiometry (CP-RDE)

Rotating Disk Ramp Chronopotentiometry (RCP-RDE)

Rotating Ring-Disk Voltammetry (RRDE)

Rotating Ring-Disk Electrolysis (BE-RRDE)

Rotating Ring-Disk Koutecky-Levich (KL-RRDE)

Corrosion Methods ��g늻��W(xu��)��

Linear Polarization Resistance (LPR)

Rotating Cylinder Voltammetry (RCE)

Rotating Cylinder Electrolysis (BE-RCE)

Rotating Cylinder Eisenberg Study (EZB-RCE)

Rotating Cylinder Open Circuit Potential (OCP-RCE)

Rotating Cylinder Polarization Resistance (LPR-RCE)

Rotating Cylinder Chronopotentiometry (CP-RCE)

Rotating Cylinder Ramp Chronopotentiometry (RCP-RCE)

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